An improved Nicotiana benthamiana bioproduction chassis provides novel insights into nicotine biosynthesis

Katharina Vollheyde; Quentin M. Dudley; Ting Yang; Mehmet T. Oz; Davide Mancinotti; Mariano Olivera Fedi; Darren Heavens; Gareth Linsmith; Monika Chhetry; Mark A. Smedley; Wendy A. Harwood; David Swarbreck; Fernando Geu-Flores; Nicola J. Patron

doi:10.1111/nph.19141

An improved Nicotiana benthamiana bioproduction chassis provides novel insights into nicotine biosynthesis

Katharina Vollheyde, Quentin M. Dudley, Ting Yang, Mehmet T. Oz, Davide Mancinotti, Mariano Olivera Fedi, Darren Heavens, Gareth Linsmith, Monika Chhetry, Mark A. Smedley, Wendy A. Harwood, David Swarbreck, Fernando Geu-Flores^*, Nicola J. Patron

^*Corresponding author for this work

Section for Plant Biochemistry

Research output: Contribution to journal › Journal article › Research › peer-review

11 Citations (Scopus)

31 Downloads (Pure)

Abstract

The model plant Nicotiana benthamiana is an increasingly attractive organism for the production of high-value, biologically active molecules. However, N. benthamiana accumulates high levels of pyridine alkaloids, in particular nicotine, which complicates the downstream purification processes. Here, we report a new assembly of the N. benthamiana genome as well as the generation of low-nicotine lines by CRISPR/Cas9-based inactivation of berberine bridge enzyme-like proteins (BBLs). Triple as well as quintuple mutants accumulated three to four times less nicotine than the respective control lines. The availability of lines without functional BBLs allowed us to probe their catalytic role in nicotine biosynthesis, which has remained obscure. Notably, chiral analysis revealed that the enantiomeric purity of nicotine was fully lost in the quintuple mutants. In addition, precursor feeding experiments showed that these mutants cannot facilitate the specific loss of C6 hydrogen that characterizes natural nicotine biosynthesis. Our work delivers an improved N. benthamiana chassis for bioproduction and uncovers the crucial role of BBLs in the stereoselectivity of nicotine biosynthesis.

Original language	English
Journal	New Phytologist
Volume	240
Issue number	1
Pages (from-to)	302-317
Number of pages	16
ISSN	0028-646X
DOIs	https://doi.org/10.1111/nph.19141
Publication status	Published - 2023

Bibliographical note

Publisher Copyright:
© 2023 The Authors. New Phytologist © 2023 New Phytologist Foundation.

Keywords

alkaloid biosynthesis
gene editing
metabolic engineering
Nicotiana benthamiana
nicotine

Access to Document

10.1111/nph.19141Licence: CC BY

FulltextFinal published version, 2.51 MBLicence: CC BY

Cite this

Vollheyde, K., Dudley, Q. M., Yang, T., Oz, M. T., Mancinotti, D., Fedi, M. O., Heavens, D., Linsmith, G., Chhetry, M., Smedley, M. A., Harwood, W. A., Swarbreck, D., Geu-Flores, F., & Patron, N. J. (2023). An improved Nicotiana benthamiana bioproduction chassis provides novel insights into nicotine biosynthesis. New Phytologist, 240(1), 302-317. https://doi.org/10.1111/nph.19141

An improved Nicotiana benthamiana bioproduction chassis provides novel insights into nicotine biosynthesis. / Vollheyde, Katharina; Dudley, Quentin M.; Yang, Ting; Oz, Mehmet T.; Mancinotti, Davide; Fedi, Mariano Olivera; Heavens, Darren; Linsmith, Gareth; Chhetry, Monika; Smedley, Mark A.; Harwood, Wendy A.; Swarbreck, David; Geu-Flores, Fernando; Patron, Nicola J.

In: New Phytologist, Vol. 240, No. 1, 2023, p. 302-317.

Research output: Contribution to journal › Journal article › Research › peer-review

Vollheyde, Katharina ; Dudley, Quentin M. ; Yang, Ting ; Oz, Mehmet T. ; Mancinotti, Davide ; Fedi, Mariano Olivera ; Heavens, Darren ; Linsmith, Gareth ; Chhetry, Monika ; Smedley, Mark A. ; Harwood, Wendy A. ; Swarbreck, David ; Geu-Flores, Fernando ; Patron, Nicola J. / An improved Nicotiana benthamiana bioproduction chassis provides novel insights into nicotine biosynthesis. In: New Phytologist. 2023 ; Vol. 240, No. 1. pp. 302-317.

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abstract = "The model plant Nicotiana benthamiana is an increasingly attractive organism for the production of high-value, biologically active molecules. However, N. benthamiana accumulates high levels of pyridine alkaloids, in particular nicotine, which complicates the downstream purification processes. Here, we report a new assembly of the N. benthamiana genome as well as the generation of low-nicotine lines by CRISPR/Cas9-based inactivation of berberine bridge enzyme-like proteins (BBLs). Triple as well as quintuple mutants accumulated three to four times less nicotine than the respective control lines. The availability of lines without functional BBLs allowed us to probe their catalytic role in nicotine biosynthesis, which has remained obscure. Notably, chiral analysis revealed that the enantiomeric purity of nicotine was fully lost in the quintuple mutants. In addition, precursor feeding experiments showed that these mutants cannot facilitate the specific loss of C6 hydrogen that characterizes natural nicotine biosynthesis. Our work delivers an improved N. benthamiana chassis for bioproduction and uncovers the crucial role of BBLs in the stereoselectivity of nicotine biosynthesis.",

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